US20020116890A1

US20020116890A1 - Corner panel of a form system

Info

Publication number: US20020116890A1
Application number: US10/082,933
Authority: US
Inventors: James Moore
Original assignee: Eco Block LLC
Current assignee: Eco Block LLC
Priority date: 2001-02-27
Filing date: 2002-02-26
Publication date: 2002-08-29
Also published as: MXPA02002065A; JP2003027642A; CA2373770A1

Abstract

A panel connector is disclosed that is used to make a corner in a wall system and a method of installing that component. The panel connector defines two channels into which respective portions of two side panels are inserted, in which the side panels usually serve as forms or walls in forming concrete wall structures. The panel connectors form a corner between the two side panels so that those side panels having a predetermined angle therebetween. It is noted that this abstract is provided to comply with the rules requiring an abstract that will allow a searcher or other reader to ascertain quickly the subject matter of the technical disclosure. The abstract is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims pursuant to 37 C.F.R. §1.72(b).

Description

This patent application claims priority to U.S. Provisional Application Serial No. 60/271,827, which was filed on Feb. 27, 2001, and which is fully incorporated herein by reference.[0001]

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention encompasses a building component used to form a corner in a wall system and, more particularly, a corner for a system that is used to construct a concrete wall.

2. Background Art

Concrete walls in building construction are often produced by first setting up two parallel form walls and pouring concrete into the space between the forms. After the concrete hardens, the builder then removes the forms, leaving the cured concrete wall.

This prior art technique has drawbacks. Formation of the concrete walls is inefficient because of the time required to erect the forms, wait until the concrete cures, and take down the forms. This prior art technique, therefore, is an expensive, labor-intensive process.

Accordingly, techniques have developed for forming concrete walls that use a foam insulating material. The modular form walls are set up parallel to each other and connecting components hold the two form walls in place relative to each other while concrete is poured therebetween. The form walls, however, remain in place after the concrete cures. That is, the modular walls, which are constructed of foam insulating material, are a permanent part of the building after the concrete cures. The concrete walls made using this technique can be stacked on top of each other many stories high to form all of a building's walls. In addition to the efficiency gained by retaining the form walls as part of the permanent structure, the materials of the form walls often provide adequate insulation for the building.

In prior art systems, however, the corners for form systems have proven to be difficult to manufacture and construct. Often a specific side panel must be manufactured and used, in which the side panels are non-linear to form an angle equal to that required for the building (i.e., 90 degrees). These corner panels necessary to make a corner structure in the prior art concrete form systems are expensive which, in turn, increases the cost of the formed wall.

SUMMARY OF THE INVENTION

The present invention comprises a panel connector for making corner structures in building form systems, particularly for systems used to construct concrete walls. The panel connector defines two channels into which respective portions of the side panels are inserted, preferably at the construction site. These panel connectors are designed to form a corner having a predetermined angle to which the inserted side panels are positioned.

In one exemplary embodiment, the panel connector includes a first base wall, a first pair of side walls, and a second pair of side walls. The first pair of side walls extend from the first base wall and are spaced apart to define a first channel of a size to complementarily receive a portion of one side panel. One of the side walls of the first pair of side walls forms a second base wall, and the second pair of side walls extend from the second base wall to form the second channel. The second channel is also of a size to complementarily receive a portion of another side panel. With this embodiment, the side panels are usually oriented at right angles to each other in plan view.

In a second exemplary embodiment, the panel connector comprises a pair of connected channels. Each channel includes a first side wall, a second side wall, and a back wall. Both channels have corners formed between the first side wall and the back wall and those corners are connected to each other. The side walls for each channel that do not form the corner of that respective channel (e.g., the second side panel) may extend beyond the connection point of the respective back wall to a distal edge. For structural integrity, it is preferred that the distal edges of the second side walls of both channels are also connected. In fact, the panel connector may be formed so that the connected corners of the channels are coextensive and integral with each other and the distal edges of the connected channels are also coextensive and integral with each other.

In this second embodiment, the back walls of the respective channels are at an angle with each other in plan view that is less than 180 degrees. In specific preferred embodiments, the back walls are at angles of either 45 or 90 degrees and the side panels accordingly, are at that same angle in plan view.

The panel connector may also include a fastening means for forming a stronger connection between the panel connector and the respective inserted side panels. The fastening means assists in maintaining the side panels within the respective channels during the construction process and after its completion.

The present invention also includes a method of constructing a portion of a form wall system having at least one panel connector described herein and at least two side panels.

These and other features and advantages of the present invention will become more readily apparent from the following detailed description taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE FIGURES OF THE DRAWINGS

FIG. 1 is a perspective view of one embodiment of the present invention shown being used with an exemplary wall system. [0016]
FIG. 2 is a perspective side view of a FIG. 1 taken along line [0017] 2-2.
FIG. 2A is an alternative view of FIG. 2 showing concrete disposed between the two opposed side panels. [0018]
FIG. 3 is a perspective view of connector shown in FIG. 2. [0019]
FIG. 4 is a perspective view of a first exemplary embodiment of a panel connector of the present invention. [0020]
FIG. 5 is a top plan view of the panel connector of FIG. 4 having a portion of a respective side panel disposed within each of the two channels. [0021]
FIG. 6 is a top plan view of T-wall formed using two panel connectors shown in FIG. 4. [0022]
FIG. 7 is a perspective view of a second exemplary embodiment of a panel connector of the present invention. [0023]
FIG. 8 is a top plan view of the panel connector of FIG. 7 having a portion of a respective side panel disposed within each of the two channels, in which the side panels are oriented at an approximately 45 degree angle to each other. [0024]
FIG. 9 is a top plan view of a panel connector similar to that of FIG. 7, in which the side panels are oriented at an angle of approximately 90 degrees instead of at 45 degrees.[0025]

DETAILED DESCRIPTION OF THE INVENTION

The present invention is more particularly described in the following examples that are intended as illustrative only since numerous modifications and variations therein will be apparent to those skilled in the art. As used in the specification and in the claims, “a,” “an,” and “the” can mean one or more, depending upon the context in which it is used. The preferred embodiment of the present invention is now described with reference to the figures, in which like numbers indicate like parts throughout the figures. [0026]
As shown in FIGS. [0027] 1-9, the present invention comprises a corner system 10 used for constructing buildings and the like. Before describing illustrative embodiments of the present invention, however, exemplary components that are used to form the associated concrete form wall are addressed to provide context.
As best shown in FIG. 2, [0028] side panels 20 are used to form the wall, in which each side panel 20 has a top end 24, a bottom end 26, a first end 28, a second end 30, an exterior surface 32, and an interior surface 34. The illustrated side panel 20 has a thickness (separation between the interior surface 34 and exterior surface 32) of approximately two and a half (2½) inches, a height (separation between the bottom end 26 and the top end 24) of sixteen (16) inches, and a length (separation between the first end 28 and second end 30) of forty-eight (48) inches. The dimensions may be altered, if desired, for different building projects, such as increasing the thickness of the side panel 20 for more insulation. Half sections of the side panels 20 can be used for footings.
Referring now to FIGS. 1 and 2, the [0029] interior surface 34 of one side panel 20 faces the interior surface 34 of another side panel 20 and the opposed interior surfaces 34 are laterally spaced apart from each other a desired separation distance so that a cavity 38 is formed therebetween. Concrete—in its fluid state—is poured into the cavity 38 and allowed to substantially cure (i.e., harden) therein to form the wall structure, as shown in FIG. 2A. The opposed interior surfaces 34 are usually parallel to each other. The volume of concrete received within the cavity 38 is defined by the separation distance between the interior surfaces 34, the height of the side panels 20, and the length of the side panels 20.
The illustrated [0030] side panels 20 are constructed of expanded polystyrene (“EPS”), which provides thermal insulation and sufficient strength to hold the poured concrete C until it substantially cures. The formed concrete wall using expanded polystyrene with the poured concrete C has a high insulating value so that no additional insulation is usually required. In addition, the formed walls have a high impedance to sound transmission. However, other materials may be used to form the side panels, including, but not limited to, other polystyrene materials, wood, plywood, combined steel frame and plywood center (commonly known as a steel-ply panel), or any other solid material that can be coupled to either a web member 40 or a connector 50 and can withstand the forces exerted by the fluid concrete when poured into the cavity 38 without substantial bowing, warping, breaking, or other type of failure. The opposed side panels may be formed of the same material or different materials.
As shown in FIG. 2 and disclosed more completely in U.S. Pat. Nos. 6,170,220 and 6,336,301 and in U.S. patent application Ser. No. 09/848,398 (all of which are incorporated herein in their entireties), each [0031] side panel 20 has at least one web member 40 formed into it. Each web member 40 formed within one side panel 20 is usually separated a predetermined longitudinal distance from other web members 40, which is typically eight (8) inches. Based on the preferred length of the side panel 20 of forty-eight (48) inches, six web members 40 are formed within each side panel 20. A portion of each web member 40 is shown integrally formed within one side panel 20 and is to be cured within the concrete C so that the web member 40 strengthens the connection between the side panel 20 and the concrete C. That is, since the web member 40 is an integral part of the side panel 20, it bonds the side panel 20 to the concrete C once the concrete is poured and substantially cures within the cavity 38. However, other designs are contemplated to be used with the present invention, such as systems in which the web member is not integrally formed into the side panel and, for example, the web member is slid into slots precut into the side panel at the construction site. Still another design with which the present invention may be used includes systems having the web members, side panels, and connectors shipped to the construction site as an integral unit. Such exemplary designs are disclosed in U.S. Pat. Nos. 4,901,494, 5,390,459, and 5,497,592, which are also incorporated herein in by reference.
Referring still to FIG. 2, portions of each [0032] web member 40 that extend through the interior surface 34 of the side panel 20 forms one or more attachment points 44. The attachment points 44 are disposed within the cavity 38 and are spaced apart from the interior surface 34 of the side panels 20. However, as one skilled in the art will appreciate, the attachment points 44 may take any of a number of alternate designs formed by or independentl of the web members 40, including as examples: slots, channels, grooves, projections or recesses formed in the side panels; hooks or eyelets projecting from or formed into the side panels; twist, compression or snap couplings; or other coupling means for engaging cooperating ends of the connectors.
The illustrated attachment points [0033] 44 of the web members 40 extend into the cavity 38 and the attachment points 44 of each web member 40 formed within one side panel 20 are spaced apart from the attachment points 44 of the web members 40 formed within the opposed side panel 20. Thus, the web members 40 in this illustrative design do not directly contact each other; instead, each attachment point 44 independently engages the connector 50 that interconnects the web members 40 and, accordingly, the side panels 20.
Referring now to FIG. 3, the illustrated [0034] connector 50 has opposed ends 52 and a length extending therebetween. The ends 52 of the connectors 50 are each of a shape to engage one attachment point 44 of two respective web members 40 within opposed panels. In conjunction, each end 52 of the connector 50 has a track 54 into which the attachment point 44 is complementarily and slidably received. Thus, the illustrated connectors 50 engage two attachment points 44 on opposed web members 40, which position the interior surfaces 34 of the side panels 20 at a desired separation distance and support the side panels 20 when the fluid concrete is poured into the cavity 38. The connector 50 thus makes a two-point connection with opposed web members 40 because each connector has two ends 52 that each couple to one attachment point 44, although it is contemplated making a four-point connection (i.e., each connector 50 engages four attachment points 44 instead of two as illustrated in the figures). As also noted above, however, the web members and connectors can be formed as an integral unit for use with the present invention.
Referring now to FIGS. 2 and 3, the [0035] connectors 50 also define an aperture 56 of a size to complementary receive a re-bar (not shown) therein. The re-bar provides reinforcing strength to the formed wall. The diameter of the re-bar can be one-quarter (¼) inch or other dimension as required for the necessary reinforcement, which depends on the thickness of the concrete wall and the design engineering requirements. The connectors 50 usually have two or more apertures 56 and re-bar can be positioned in any of the apertures 56 before the concrete is poured into the cavity 38. The apertures 56 can be designed so that the re-bar is securably snapped into place for ease of assembly.
To alter the width of the cavity [0036] 38 (i.e., the separation between the interior surfaces 34 of the opposed side panels 20), different connectors 50 can have varying lengths. The width of the cavity 38 can be two (2), four (4), six (6), eight (8) inches or other separation. Different connectors 50 are sized accordingly to obtain the desired width of the cavity 38. Also, as one skilled in the art will appreciate, the fire rating, sound insulation, and thermal insulation increase as the width of the cavity 38, which is filled with concrete, increases. One skilled in the art will appreciate that the cavity 38 may only be partially filled with concrete, but such an embodiment is usually not desired.
The [0037] web members 40 and connectors 50 are usually constructed of a thermoplastic, but other materials may be used. Factors used in choosing the material include the desired strength of the web member 40 and connector 50, the compatibility with the material used to form side panels 20 and with the concrete, and cost. Another consideration is that the end plates of the web members (positioned adjacent the exterior surface of the side panel 20) should be adapted to receive and frictionally hold a metal fastener, such as a nail or screw, therein, thus providing the “strapping” for a wall system that provides an attachment point for gypsum board (not shown), interior or exterior wall cladding (not shown), or other interior or exterior siding (not shown).
Referring back to FIGS. 1 and 2, one skilled in the art will appreciate that a plurality of [0038] side panels 20 can be longitudinally aligned to form a predetermined length and be vertically stacked to form a predetermined height. For example, the first end 28 of one side panel 20 abuts the second end 30 of another side panel 20 and the bottom end 26 of one side panel 20 is disposed on the top end 24 of another side panel 20. Thus, a series of side panels 20 can be aligned and stacked to form the concrete system into which concrete C is poured to complete the construction of the wall. One consideration, however, is that the side panels 20 are not vertically stacked too high and filled at once so that the pressure on the bottom side panel 20 is greater than the yield strength of the web members 40 or side panels 20. Instead, the stacked wall of panels 20 can be filled and cured in stages so that the static and dynamic pressures are not excessive on the lower side panels 20.
Still referring to FIGS. 1 and 2, the [0039] side panels 20 are optionally provided with a series of projections 35 and indentations 37 that complementarily receive offset projections 35 and indentations 37 from another side panel 20 (i.e., a tongue-and-groove-type system) to facilitate the stacking of the components. The projections 35 and indentations 37 in the adjacent side panels 20 mate with each other to form a tight seal that prevents leakage of concrete C during wall formation and prevents loss of energy through the formed wall.
In the context of these exemplary components, the present invention is disclosed, which comprises a [0040] panel connector 60 that is used to form a corner of the wall structure. The panel connector 60, which is shown in FIGS. 1 and 4-9, joins or interconnects two or more side panels 20 in a fixed or stationary relationship relative to each other. As noted above, the interconnected side panels 20 can employ any design used in the art, ranging from plywood panels to the illustrative EPS panels illustrated in the Figures.
In a preferred embodiment, the [0041] panel connector 60 comprises first and second channels 70, 80, both of which have a back wall 72, 82 and two side walls 74, 84. For each of the first and second channels 70, 80, the back wall 72, 82 has two opposed ends 73, 83 and each side wall 74, 84 has two opposed edges 75, 85, in which one edge 75, 85 of each side wall 74, 84 connects to one respective end 73, 83 of the back wall 72, 82. Together the two spaced apart side walls 74, 84 and interconnected back wall 72, 82 form one respective channel 70, 80. The first and second channels 70, 80 are preferably of a size to receive a portion of a side panel 20 therein. As discussed below, the channels 70, 80 may also include a fastening means to assist inkeeping the side panel 20 retained within to the respective channel once interconnected.
It is also preferred that the back and [0042] side walls 72, 74, 82, 84 are substantially planar and it is further preferred that the side walls 74, 84 are both oriented substantially perpendicular to the back wall 72, 74 in plan view (i.e., top or bottom view). Thus, the channel 70, 80 is substantially a squared U-shape in plan view, which matches the profile of the portion of the illustrated side panels 20 inserted into that channel. Of course, the shape and orientation of the channels 70, 80 may be varied as desired; for example, the two opposed side walls 74, 84 could be oriented inwardly (not shown) to form an acute angle relative to the back wall 72, 82 and such an alternative channel design could still receive a portion of the respective side panel therein.
For purposes of discussing the present invention, the [0043] first channel 70 will be disclosed as receiving a first side panel 20A and the second channel 80 as receiving a second side panel 20B. The illustrated first and second side panels 20 are of the same design, but one skilled in the art will appreciate that the first side panel 20A may be an EPS panel and the second side panel 20B formed of a different material. Similarly, the first and second side panels 20A, 20B may have different widths between their respective interior and exterior surfaces 32, 34.
The present invention also preferably includes a means for positioning the first and [0044] second channels 70, 80 adjacent to each other. It is preferred that the positioning means comprises integrally connecting a portion of the first channel 70 to a portion of the second channel 80. More specifically, it is preferred that the panel connector 60 be formed or extruded so that the first and second channels 70, 80 are fixedly attached to each other (i.e., coextensive and integrally formed together) along a potion or their entire heights, which extends between the top and bottom of the channel. However, the two channels may be interconnected using other means, such as fusing, welding, chemically bonding such as with glue, mechanically attaching such as with nails, screws, or rivets, or other techniques known in the art.
Similar to the exemplary web members and connectors described above, the [0045] panel connectors 60 may be formed of plastic, more preferably high-density plastic such as high-density polyethylene or high-density polypropylene, although other suitable polymers may be used. Other contemplated plastics include acrylonitrile butadiene styrene (“ABS”) and glass-filled polyethylene or polypropylene. Likewise, other materials that may be used are other plastics and thermoplastics (including polyvinyl chloride (P.V.C.), polytetrafluoethylene (P.T.F.E.), polyamides such as nylon), metal, and natural and other synthetic materials. Factors used in choosing the material include the desired strength of the panel connector 60, the compatibility with the material used to form side panels 20 and with the concrete C, and cost.
In the first exemplary embodiment of the present invention shown in FIGS. [0046] 4-6, the positioning means comprises one side wall 74 of the first channel 70 also forming the back wall 82 of the second channel 80 so that the first and second channels 70, 80 are oriented substantially perpendicular in plan view. Stated differently, this illustrated embodiment comprises a first back wall 72 and a first pair of side walls 74 extending from the first base wall 72 to define the first channel 70. One of those two side walls 74 of the first channel 70 forms a second back wall 88. The second pair of side walls 84 extend substantially perpendicular from the second back wall 88. Similar to the first set of side walls, the second pair of side walls 84 are also spaced apart from each other to define the second channel 80. The first and second channels 70, 80 receive respective first and second side panels 20A, 20B, as shown in FIGS. 5 and 6, so that the side panels interconnected by this embodiment are oriented substantially perpendicular to each other in plan view.
Referring now to FIGS. 1 and 7-[0047] 9, a second exemplary embodiment of the present invention is shown, in which the two channels are interconnected at one of their respective corners. Specifically, for the first channel 70, the intersection of one end 73 of the back wall 72 and one edge 85 of one respective side wall 84 forms a first channel corner 76, and, similarly for the second channel 80, the intersection of one end 83 of that back wall 82 and an edge 85 of one respective side wall 84 forms a second channel corner 86. The positioning means in this embodiment comprises a portion of the first channel corner 76 being attached to a portion of the second channel corner 86. As noted above, the first and second channel corners 76, 86 preferably are fixedly attached to each other along the entire height of the panel connector 60, but other designs of the positioning means are contemplated as mentioned above.
It is preferred that that the [0048] back walls 72, 82 of the first and second channels 70, 80 form an angle θ in plan view between approximately 0 and 179 degrees, more preferably between 1 and 170 degrees, still more preferably between 30 and 135 degrees, and most preferably between and including 45 and 90 degrees. The 45 degree embodiment is illustrated in FIGS. 1, 7, and 8 and the 90 degree embodiment is illustrated in FIG. 9. As one skilled in the art will appreciated, the angle θ between the first and second side panels 20A, 20B interconnected by a panel connector 60 form the same sized angle in plan view as the angle formed by the back walls in the illustrated embodiments.
Although not required, it is preferred for structural strength of the [0049] panel connector 60 of this second exemplary embodiment that the channels interconnect at another point besides the first and second channel corners 76, 86. One contemplated embodiment includes one or more extension members (not shown) extending between the back walls of the first and second channels 70, 80 to stationarily position the back walls relative to each other. Such an extension may, for example, interconnect the opposed corners of the channels so that the two ends of one back wall are either directly or indirectly connected to corresponding ends of the other back wall. This extension may be substantially planar, arcuate, or other shape that is preferably aesthetically pleasing.
In another embodiment illustrated in FIGS. [0050] 7-9, the channels include respective first and second side extensions 90, 94. The first side extension 90 is connected to the side wall 74 that is opposed to the side wall that forms the first channel corner 76 (i.e., the corner not connected to the second channel 80) and, likewise, the second side extension 94 is connected to the side wall 84 that is opposed to the side wall that forms the second channel corner 86. Both the first and second side extensions 90, 94 have extending portions that extend away from the first channel 70 toward the second channel 80 and terminate at a respective distal edge 92, 96. As illustrated, the distal edge 92 of the first side extension 90 contacts the distal edge 96 of the second side extension 94 and, more preferably, the two distal edges 92, 96 are fixedly attached together.
Referring still to FIGS. [0051] 7-9, the first side extension 90 is substantially linear in plan view and oriented substantially perpendicular to the back wall 72 of the first channel 70. Likewise, the second side extension 94 is substantially linear in plan view and is also oriented substantially perpendicular to the back wall 82 of the second channel 80. The extending portion of the first side extension 90 and the extending portion of the second side extension 94 form a non-linear angle Φ therebetween. That angle Φ between the first and second side extensions 90, 94 is preferably supplementary to the angle θ formed between the back walls 72, 82 of the first and second channels 70, 80 (i.e., collectively the angles (θ+Φ) total 180 degrees). This embodiment is presently preferred because the exterior surface of the formed wall is aesthetically pleasing and provides a contiguous mounting surface when covered, such as with stucco or the like. As noted above, however, other embodiments are contemplated, such as arcuate shapes, to address all architectural designs.
As noted above, the present invention may optionally further comprise a fastening means associated with at least one of the first and [0052] second channels 70, 80 for detachably holding a portion of the respective side panel 20 within that respective channel. The embodiment of the fastening means shown in FIGS. 4, 5, and 7-9 comprises at least one protrusion 100 that engages the side panel 20 inserted into the channel. As illustrated, each of the side walls 74, 84 of the two channels has an engaging surface that faces the opposed side wall 74, 84 of that channel and the protrusions 100 are formed on the engaging surfaces of the side walls 74, 84. The illustrated protrusion 100 is saw-tooth shaped in plan view, in which the saw-tooth shape has opposite steep and gradual sides. The gradual side generally faces the front of the side wall 74, 84 and the steep side generally faces the respective back wall 72, 82 of that channel 70, 80.
It is also contemplated that the [0053] side panels 20 include an indentation 39 or detent in their respective exterior surfaces 32 of a size to receive one respective protrusion 100 therein when the side panel 20 is fully inserted into the channel. In use, when the side panel 20 is inserted into the respective channel, at least one indentation 39 within the interior and/or exterior surface of the side panel 20 engages the steep side of the protrusion 100 to secure the received side panel 20 to the respective channel. There may be a plurality of spaced-apart protrusions 100 on the mating surface of each side wall 74, 84 and corresponding indentations 39 to engage each protrusion 100.
Additionally, each [0054] side wall 74, 84 has a lateral height extending between the top surface and the bottom surface of the respective side wall. Each protrusion 100 may extend substantially the lateral height of the side wall, which is greater than half the lateral height, more preferably greater than three-quarters of the lateral height, and most preferably substantially the entire lateral height. Further, each protrusion 100 may extend substantially parallel to the back edge 75, 85 of the side wall.
Other fastening means are also contemplated. One example of an alternative fastening means may comprise at least one orifice (not shown) in each of the side walls of the first and the second pairs of side walls and a plurality of fasteners (not shown). After the first and [0055] second side panels 20A, 20B are inserted into the respective first and second channels 70, 80, a fastener may be inserted through the orifice into the received side panel 20. In another design, the fastening means may comprise at least one starter indentation (not shown) in each of the side walls of the first and the second pairs of side walls and a plurality of fasteners (not shown) so that one fastener may be driven through the starter indentation and into the received side panel. It is also contemplated that the fastening means may include chemical adhesives as well as other types of mechanical fasteners such as rivets, nails, screws, bolts and the like if the materials allow (i.e., when using plywood side panels).
Referring back to FIGS. 4 and 5, one of the [0056] side walls 74 of the first pair of side walls and one of the side walls 84 of the second pair of side walls each may define a laterally extending lip 78 formed at the front edge of the respective side wall. As one skilled in the art will appreciate, when the first side panel 20A is received into the first channel 70 and when the second side panel 20B is received into the second channel 80, the defined lips 78 extend outwardly away from the interior surface 34 of the respective received side panels 20 so that a portion of the panel connector 60 extends into the cavity 38 to be substantially cured within the concrete C. Since the lips 78 are an integral part of the panel connector 60, the lip, assists in “locking” the panel connector 60 to the concrete C once the concrete is poured and substantially cures within the cavity 38 around the exposed portions of the panel connector 60.
As illustrated in FIG. 1, [0057] multiple panel connectors 60 can be used in conjunction with each other to form the wall structure. Another example is the formation of a T-wall, which is illustrated in FIG. 6. There are two panel connectors shown: a right panel connector 60R and a left panel connector 60L. The embodiment of the panel connector 60 illustrated in FIGS. 4 and 5 is shown, but one skilled in the art will appreciate that other panel connector designs may similarly be used, including the embodiment shown in FIG. 9. This T-wall system also uses four side panels, including a first, a second, a third, and a fourth side panel, in which the first and second side panels 20A, 20B are inserted into the left panel connector 60L and the third and fourth side panels 20C, 20D are inserted into the right side panel connector 60R. To form the T-wall, the right and left panel connectors 60L, 60R are spaced apart from each other. Also, the first side panel 20A is oriented substantially linearly with the third panel 20C and the second and fourth side panels 20B, 20D are oriented substantially parallel to each other. The second and fourth side panels 20B, 20D are spaced apart a predetermined distance, in which the predetermined distance preferably corresponds to the width of the cavity 38. As further disclosed in U.S. patent application Ser. No. 09/848,398 (which is incorporated by reference herein in its entirety), flexible linking members 62 and extenders 64 can be used to interconnect the side panels 20 and to assist in preventing bowing when fluid concrete fills the cavity 38.
Although the present invention has been described with reference to specific details of certain embodiments thereof, it is not intended that such details should be regarded as limitations upon the scope of the invention except as and to the extent that they are included in the accompanying claims. For example, as noted above, the present invention is described with reference to a system incorporating the depicted concrete form system, it will be understood by those skilled in the art that the present invention is applicable to other types of concrete form systems utilizing one or more form panels or other concrete retaining and/or molding elements retained in position by one or more connectors or other relative position-fixing elements. Also, although the present invention is described with reference to a system, method and components thereof for use in the forming of concrete building components, the present invention may also find application in the formation of various other types of products of concrete and/or other moldable and curable materials such as, for example, structural and nonstructural building components and consumer products of concrete, plastics, and other synthetic and natural materials. [0058]

Claims

What is claimed is:

1. A panel connector, comprising:

a. a first channel including a back wall having two opposed ends and including two side walls having two opposed edges, in which one edge of each side wall connects to one respective end of the back wall to form the first channel that is of a size to receive a portion of a first side panel therein;

b. a second channel including a back wall having two opposed ends and including two side walls having two opposed edges, in which one edge of each side wall connects to one respective end of the back wall to form the second channel that is of a size to receive a portion of a second side panel therein; and

c. means for positioning the first and second channels adjacent each other.

2. The panel connector of claim 1, wherein the positioning means comprises integrally connecting a portion of the first channel to a portion of the second channel.

3. The panel connector of claim 2, wherein the positioning means comprises one side wall of the first channel also forming the back wall of the second channel so that the first and second channels are oriented substantially perpendicular in plan view.

4. The panel connector of claim 1, wherein an intersection of one end of the back wall and one edge of one respective side wall of the first channel forms a first channel corner,

wherein an intersection of one end of the back wall and one edge of one respective side wall of the second channel forms a second channel corner, and

wherein the positioning means comprises a portion of the first channel corner being attached to a portion of the second channel corner.

5. The panel connector of claim 4, wherein the back walls of the first and second channels form an angle in plan view between approximately 0 and 179 degrees.

6. The panel connector of claim 4, wherein the back walls of the first and second channels form an angle in plan view between approximately 30 and 135 degrees.

7. The panel connector of claim 4, wherein the back walls of the first and second channels form an angle in plan view between approximately 45 and 90 degrees.

8. The panel connector of claim 4, wherein the first channel corner is fixedly attached to the second channel corner.

9. The panel connector of claim 4, further comprising first and second side extensions,

wherein the first side extension is connected to the side wall that is opposed to the side wall that forms the first channel corner, the first side extension having an extending portion that extends away from the first channel toward the second channel and terminates at a distal edge,

wherein the second side extension is connected to the side wall that is opposed to the side wall that forms the second channel corner, the second side extension having an extending portion that extends away from the second channel toward the first channel and terminates in a distal edge, and

wherein the distal edge of the first side extension contacts the distal edge of the second side extension.

10. The panel connector of claim 9, wherein the distal edge of the first side extension is fixedly attached to the distal edge of the second side extension.

11. The panel connector of claim 9, wherein the first side extension is substantially linear in plan view and oriented substantially perpendicular to the back wall of the first channel and the second side extension is substantially linear in plan view and is oriented substantially perpendicular to the back wall of the second channel.

12. The panel connector of claim 9, wherein the extending portion of the first side extension and the extending portion of the second side extension form a non-linear angle therebetween in plan view, in which that angle is supplementary to an angle formed between the back walls of the first and second channels in plan view.

13. The panel connector of claim 1, wherein the back wall of the first channel is oriented substantially perpendicular to the two opposed side walls of the first channel in plan view and wherein the back wall of the second channel is oriented substantially perpendicular to the two opposed side walls of the second channel in plan view.

14. The panel connector of claim 1, further comprising fastening means associated with at least one of the first and second channels for detachably holding a portion of the respective side panel within the respective channel.

15. The panel connector of claim 14, wherein each of the side walls of the two channels has an engaging surface that faces the opposed side wall of that channel, and wherein the fastening means comprises at least one protrusion formed on the engaging surface of one side wall.

16. The panel connector of claim 15, wherein the protrusion is sawtooth shaped in plan view.

17. The panel connector of claim 14, wherein the fastening means comprises at least one protrusion formed on each engaging surface of the two side walls for the first and second channels.

18. The panel connector of claim 17, wherein the protrusions are saw-tooth shaped in plan view.

19. The panel connector of claim 1, wherein the first and second channels are formed of plastic comprising polyethylene, polypropylene, or acrylonitrile butadiene styrene.

20. A corner panel, comprising:

a. a first side panel;

b. a second side panel;

c. a first channel including a back wall having two opposed ends and including two side walls having two opposed edges, in which one edge of each side wall connects to one respective end of the back wall to form the first channel that is of a size to receive a portion of the first side panel therein;

d. a second channel including a back wall having two opposed ends and including two side walls having two opposed edges, in which one edge of each side wall connects to one respective end of the back wall to form the second channel that is of a size to receive a portion of the second side panel therein; and

e. means for positioning the first and second channels adjacent each other.

21. The corner panel of claim 20, wherein the first and second side panels are formed of expanded polystyrene.

22. The corner panel of claim 20, wherein the first and second channels are formed of plastic comprising polyethylene, polypropylene, or acrylonitrile butadiene styrene.

23. The corner panel of claim 20, further comprising fastening means associated with at least one of the first and second channels for detachably holding a portion of the respective side panel within the respective channel.

24. The corner panel of claim 23, wherein each of the side walls of the two channels has an engaging surface that faces the opposed side wall of that channel, and wherein the fastening means comprises at least one protrusion formed on the engaging surface of one side wall.

25. The corner panel of claim 24, wherein the protrusion is saw-tooth shaped in plan view.

26. The corner panel of claim 24, wherein first side panel has an exterior surface, the exterior surface defining a intention of a size to complementarily receive one protrusion therein.

27. The corner panel of claim 20, wherein the positioning means comprises integrally connecting a portion of the first channel to a portion of the second channel.

28. The corner panel of claim 27, wherein the positioning means comprises one side wall of the first channel forming the back wall of the second channel so that the first and second side panels are oriented substantially perpendicular in plan view.

29. The corner panel of claim 20, wherein an intersection of one end of the back wall and one edge of one respective side wall of the first channel forms a first channel corner,

30. The corner panel of claim 29, wherein the back walls of the first and second channels form an angle in plan view between approximately 45 and 90 degrees.

31. The corner panel of claim 29, wherein the first channel corner is fixedly attached to the second channel corner.

32. The corner panel of claim 29, further comprising first and second side extensions,

33. The corner panel of claim 32, wherein the distal edge of the first side extension is fixedly attached to the distal edge of the second side extension. and

wherein the first side extension is substantially linear in plan view and oriented substantially perpendicular to the back wall of the first channel and the second side extension is substantially linear in plan view and is oriented substantially perpendicular to the back wall of the second channel.

34. The corner panel of claim 33, wherein the extending portion of the first side extension and the extending portion of the second side extension form a non-linear angle therebetween in plan view, in which that angle is supplementary to an angle formed between the back walls of the first and second channels in plan view.

35. A panel connector, comprising:

a. a first channel comprising:

i. a first side wall having an edge;

ii. a second side wall having a distal edge and an opposed proximal edge; and

iii. a back wall having opposed ends, one end connected to the edge of the first side wall and one end connected to the second side wall intermediate its distal and proximal edges,

wherein the back wall, the first side wall, and a portion of the second side wall of each channel define a channel of a size to receive of a portion of a side panel; and

b. a second channel comprising:

i. a first side wall having an edge;

ii. a second side wall having a distal edge and an opposed proximal edge; and

wherein the back wall, the first side wall, and a portion of the second side wall of each channel define a channel of a size to receive of a portion of a side panel,

wherein the respective edges of the first side walls of the first and second channels are connected to each other, wherein the distal edges of the first and second channels are connected to each other, and wherein the back walls of the first and second channels form an angle in plan view that is less than 180 degrees.

36. The panel connector of claim 35, wherein the back wall of the first channel extends perpendicular to the first and second side walls of the first channel, and

wherein the back wall of the second channel extends perpendicular to the first and second side walls of the second channel.

37. The panel connector of claim 35, wherein the angle formed by the back walls of the first and second channels is approximately 90 degrees.

38. The panel connector of claim 35, wherein the angle formed by the back walls of the first and second channels is approximately 45 degrees.

39. The panel connector of claim 35, wherein the respective edges of the first side walls of the first and second channels are fixedly attached together and the distal edges of the first and second channels are fixedly attached together.

40. The panel connector of claim 35, further comprising fastening means associated with at least one of the first and second channels for detachably holding a portion of the respective side panel within that channel.

41. The panel connector of claim 35, wherein the first and second channels are formed of plastic comprising polyethylene, polypropylene, or acrylonitrile butadiene styrene.

42. A form system, comprising:

a. a first side panel;

b. a second side panel;

c. a first channel comprising:

i. a first side wall having an edge;

ii. a second side wall having a distal edge and an opposed proximal edge; and

wherein the back wall, the first side wall, and a portion of the second side wall of each channel define a three-sided channel that receives a portion of the first side panel therein; and

d. a second channel comprising:

i. a first side wall having an edge;

ii. a second side wall having a distal edge and an opposed proximal edge; and

wherein the back wall, the first side wall, and a portion of the second side wall of each channel define a channel that receives a portion of the second side panel therein,

43. The system of claim 42, wherein the first and second side panels are formed of expanded polystyrene.

44. The system of claim 42, wherein the first and second channels are formed of plastic comprising polyethylene, polypropylene, or acrylonitrile butadiene styrene.

45. The system of claim 42, wherein the first and second channels are substantially a squared U-shaped in plan view and the portion of the first and second panels received within the respective first and second channels are also substantially a squared U-shaped in plan view.

46. The system of claim 42, further comprising fastening means associated with at least one of the first and second channels for detachably holding a portion of the respective side panel within that channel.

47. The system of claim 42, wherein the angle formed by the back walls of the first and second channels is approximately 90 degrees.

48. The system of claim 42, wherein the angle formed by the back walls of the first and second channels is approximately 45 degrees.

49. The system of claim 42, wherein the respective edges of the first sidewalls of the first and second channels are fixedly attached together and the distal edges of the first and second channels are fixedly attached together.

50. A method of constructing a form, comprising:

a. providing a panel connector having first and second channels, each channel comprising:

i. a first side wall having an edge;

ii. a second side wall having a distal edge and an opposed proximal edge; and

wherein the back wall, the first side wall, and a portion of the second side wall of each channel define the respective first or second channel that is of a size to receive a portion of a side panel therein; and

b. inserting a portion of a first side panel into the first channel of panel connector; and

c. inserting a portion of a second side panel into the second channel of panel connector so that the first and second side panels from a non-linear angle in plan view.

51. The method of claim 50, wherein the angle is approximately 90 degrees so that the first and second panels are substantially at a right angle in plan view.

52. The method of claim 50, wherein the angle is approximately 45 degrees.

53. The method of claim 50, further comprising fastening the portion of the first side panel to the first channel and fastening the portion of the second side panel to the second channel.

54. A panel connector, comprising:

a. a first back wall;

b. a first pair of side walls extending substantially perpendicular from the first base wall, the first pair of side walls spaced apart from each other, the first base wall and the first pair of side walls defining a first channel of a size to complementarily receive a portion of a side panel therein, one of the side walls of the first pair of side walls forming a second back wall; and

c. a second pair of side walls extending substantially perpendicular from the second back wall, the second pair of side walls spaced apart from each other, the second base wall and the second pair of side walls defining a second channel of a size to complementarily receive a portion of a second side panel therein.

55. The panel connector of claim 54, further comprising fastening means associated with at least one of the first and second channels for detachably holding a portion of the respective side panel within that channel.

56. The panel connector of claim 54, wherein the back and side walls are formed of plastic comprising polyethylene, polypropylene, or acrylonitrile butadiene styrene.

57. A wall form, comprising:

a. right and left panel connectors, each panel connector comprising:

i. a first back wall;

ii. a first pair of side walls extending substantially perpendicular from the first base wall, the first pair of side walls spaced apart from each other, the first base wall and the first pair of side walls defining a first channel of a size to complementarily receive a portion of a side panel therein, one of the side walls of the first pair of side walls forming a second back wall; and

iii. a second pair of side walls extending substantially perpendicular from the second back wall, the second pair of side walls spaced apart from each other, the second base wall and the second pair of side walls defining a second channel of a size to complementarily receive a portion of a side panel therein; and

b. four side panels, including a first, a second, a third, and a fourth side panel, the first side panel partially disposed in the first channel of the left panel connector, the second side panel partially disposed in the second channel of the left panel connector and oriented substantially perpendicular to the first side panel in plan view, the third side panel partially disposed in the first channel of the right panel connector, and the fourth side panel partially disposed in the second channel of the right panel connector and oriented substantially perpendicular to the third side panel in plan view,

wherein the right and left panel connectors are spaced apart from each other.

58. The wall form of claim 57, wherein the first side panel is oriented substantially linearly with the third panel and the second and fourth side panels are oriented substantially parallel to each other in plan view.

59. The wall form of claim 57, further comprising fastening means associated with at least one of the channels for detachably holding a portion of the respective side panel disposed within that channel.

60. The wall form of claim 57, wherein the second and fourth side panels are spaced apart a predetermined distance, the predetermined distance corresponding to a width of a cavity of the wall form.